Projection of the data we are reading.
If not provided, the projection will be derived from the data (where possible) or
the dataProjection of the format is assigned (where set). If the projection
can not be derived from the data and if no dataProjection is set for a format,
the features will not be reprojected.

Projection of the data we are reading.
If not provided, the projection will be derived from the data (where possible) or
the dataProjection of the format is assigned (where set). If the projection
can not be derived from the data and if no dataProjection is set for a format,
the features will not be reprojected.

Projection of the data we are reading.
If not provided, the projection will be derived from the data (where possible) or
the dataProjection of the format is assigned (where set). If the projection
can not be derived from the data and if no dataProjection is set for a format,
the features will not be reprojected.

Projection of the data we are writing.
If not provided, the dataProjection of the format is assigned (where set).
If no dataProjection is set for a format, the features will be returned
in the featureProjection.

Projection of the feature geometries
that will be serialized by the format writer. If not provided, geometries are assumed
to be in the dataProjection if that is set; in other words, they are not transformed.

rightHanded

boolean

When writing geometries, follow the right-hand
rule for linear ring orientation. This means that polygons will have counter-clockwise
exterior rings and clockwise interior rings. By default, coordinates are serialized
as they are provided at construction. If true, the right-hand rule will
be applied. If false, the left-hand rule will be applied (clockwise for
exterior and counter-clockwise for interior rings). Note that not all
formats support this. The GeoJSON format does use this property when writing
geometries.

decimals

number

Maximum number of decimal places for coordinates.
Coordinates are stored internally as floats, but floating-point arithmetic can create
coordinates with a large number of decimal places, not generally wanted on output.
Set a number here to round coordinates. Can also be used to ensure that
coordinates read in can be written back out with the same number of decimals.
Default is no rounding.

Projection of the data we are writing.
If not provided, the dataProjection of the format is assigned (where set).
If no dataProjection is set for a format, the features will be returned
in the featureProjection.

Projection of the feature geometries
that will be serialized by the format writer. If not provided, geometries are assumed
to be in the dataProjection if that is set; in other words, they are not transformed.

rightHanded

boolean

When writing geometries, follow the right-hand
rule for linear ring orientation. This means that polygons will have counter-clockwise
exterior rings and clockwise interior rings. By default, coordinates are serialized
as they are provided at construction. If true, the right-hand rule will
be applied. If false, the left-hand rule will be applied (clockwise for
exterior and counter-clockwise for interior rings). Note that not all
formats support this. The GeoJSON format does use this property when writing
geometries.

decimals

number

Maximum number of decimal places for coordinates.
Coordinates are stored internally as floats, but floating-point arithmetic can create
coordinates with a large number of decimal places, not generally wanted on output.
Set a number here to round coordinates. Can also be used to ensure that
coordinates read in can be written back out with the same number of decimals.
Default is no rounding.

Projection of the data we are writing.
If not provided, the dataProjection of the format is assigned (where set).
If no dataProjection is set for a format, the features will be returned
in the featureProjection.

Projection of the feature geometries
that will be serialized by the format writer. If not provided, geometries are assumed
to be in the dataProjection if that is set; in other words, they are not transformed.

rightHanded

boolean

When writing geometries, follow the right-hand
rule for linear ring orientation. This means that polygons will have counter-clockwise
exterior rings and clockwise interior rings. By default, coordinates are serialized
as they are provided at construction. If true, the right-hand rule will
be applied. If false, the left-hand rule will be applied (clockwise for
exterior and counter-clockwise for interior rings). Note that not all
formats support this. The GeoJSON format does use this property when writing
geometries.

decimals

number

Maximum number of decimal places for coordinates.
Coordinates are stored internally as floats, but floating-point arithmetic can create
coordinates with a large number of decimal places, not generally wanted on output.
Set a number here to round coordinates. Can also be used to ensure that
coordinates read in can be written back out with the same number of decimals.
Default is no rounding.

Projection of the data we are writing.
If not provided, the dataProjection of the format is assigned (where set).
If no dataProjection is set for a format, the features will be returned
in the featureProjection.

Projection of the feature geometries
that will be serialized by the format writer. If not provided, geometries are assumed
to be in the dataProjection if that is set; in other words, they are not transformed.

rightHanded

boolean

When writing geometries, follow the right-hand
rule for linear ring orientation. This means that polygons will have counter-clockwise
exterior rings and clockwise interior rings. By default, coordinates are serialized
as they are provided at construction. If true, the right-hand rule will
be applied. If false, the left-hand rule will be applied (clockwise for
exterior and counter-clockwise for interior rings). Note that not all
formats support this. The GeoJSON format does use this property when writing
geometries.

decimals

number

Maximum number of decimal places for coordinates.
Coordinates are stored internally as floats, but floating-point arithmetic can create
coordinates with a large number of decimal places, not generally wanted on output.
Set a number here to round coordinates. Can also be used to ensure that
coordinates read in can be written back out with the same number of decimals.
Default is no rounding.

Projection of the data we are writing.
If not provided, the dataProjection of the format is assigned (where set).
If no dataProjection is set for a format, the features will be returned
in the featureProjection.

Projection of the feature geometries
that will be serialized by the format writer. If not provided, geometries are assumed
to be in the dataProjection if that is set; in other words, they are not transformed.

rightHanded

boolean

When writing geometries, follow the right-hand
rule for linear ring orientation. This means that polygons will have counter-clockwise
exterior rings and clockwise interior rings. By default, coordinates are serialized
as they are provided at construction. If true, the right-hand rule will
be applied. If false, the left-hand rule will be applied (clockwise for
exterior and counter-clockwise for interior rings). Note that not all
formats support this. The GeoJSON format does use this property when writing
geometries.

decimals

number

Maximum number of decimal places for coordinates.
Coordinates are stored internally as floats, but floating-point arithmetic can create
coordinates with a large number of decimal places, not generally wanted on output.
Set a number here to round coordinates. Can also be used to ensure that
coordinates read in can be written back out with the same number of decimals.
Default is no rounding.

Projection of the data we are writing.
If not provided, the dataProjection of the format is assigned (where set).
If no dataProjection is set for a format, the features will be returned
in the featureProjection.

Projection of the feature geometries
that will be serialized by the format writer. If not provided, geometries are assumed
to be in the dataProjection if that is set; in other words, they are not transformed.

rightHanded

boolean

When writing geometries, follow the right-hand
rule for linear ring orientation. This means that polygons will have counter-clockwise
exterior rings and clockwise interior rings. By default, coordinates are serialized
as they are provided at construction. If true, the right-hand rule will
be applied. If false, the left-hand rule will be applied (clockwise for
exterior and counter-clockwise for interior rings). Note that not all
formats support this. The GeoJSON format does use this property when writing
geometries.

decimals

number

Maximum number of decimal places for coordinates.
Coordinates are stored internally as floats, but floating-point arithmetic can create
coordinates with a large number of decimal places, not generally wanted on output.
Set a number here to round coordinates. Can also be used to ensure that
coordinates read in can be written back out with the same number of decimals.
Default is no rounding.